/* ============================================================================== This file is part of the juce_core module of the JUCE library. Copyright (c) 2016 - ROLI Ltd. Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ------------------------------------------------------------------------------ NOTE! This permissive ISC license applies ONLY to files within the juce_core module! All other JUCE modules are covered by a dual GPL/commercial license, so if you are using any other modules, be sure to check that you also comply with their license. For more details, visit www.juce.com ============================================================================== */ #ifndef MAINCOMPONENT_H_INCLUDED #define MAINCOMPONENT_H_INCLUDED #include "../JuceLibraryCode/JuceHeader.h" #include //============================================================================== class MainContentComponent : public AudioAppComponent, private Timer { public: //============================================================================== MainContentComponent() { setSize (400, 400); setAudioChannels (0, 2); initGui(); Desktop::getInstance().setScreenSaverEnabled (false); startTimer (1000); } ~MainContentComponent() { shutdownAudio(); } //============================================================================== void prepareToPlay (int bufferSize, double sampleRate) override { currentSampleRate = sampleRate; allocateBuffers (bufferSize); printHeader(); } void releaseResources() override { a.clear(); b.clear(); c.clear(); currentSampleRate = 0.0; } //============================================================================== void getNextAudioBlock (const AudioSourceChannelInfo& bufferToFill) override { const double startTimeMs = getPreciseTimeMs(); AudioBuffer& outputAudio = *bufferToFill.buffer; std::size_t bufferSize = (std::size_t) outputAudio.getNumSamples(); initialiseBuffers (bufferToFill, bufferSize); for (int ch = 0; ch < outputAudio.getNumChannels(); ++ch) crunchSomeNumbers (outputAudio.getWritePointer (ch), bufferSize, numLoopIterationsPerCallback); std::lock_guard lock (metricMutex); double endTimeMs = getPreciseTimeMs(); addCallbackMetrics (startTimeMs, endTimeMs); } //============================================================================== void addCallbackMetrics (double startTimeMs, double endTimeMs) { double runtimeMs = endTimeMs - startTimeMs; audioCallbackRuntimeMs.addValue (runtimeMs); if (runtimeMs > getPhysicalTimeLimitMs()) numCallbacksOverPhysicalTimeLimit++; if (lastCallbackStartTimeMs > 0.0) { double gapMs = startTimeMs - lastCallbackStartTimeMs; audioCallbackGapMs.addValue (gapMs); if (gapMs > 1.5 * getPhysicalTimeLimitMs()) numLateCallbacks++; } lastCallbackStartTimeMs = startTimeMs; } //============================================================================== void paint (Graphics& g) override { g.fillAll (Colours::black); g.setFont (Font (16.0f)); g.setColour (Colours::white); g.drawText ("loop iterations / audio callback", getLocalBounds().withY (loopIterationsSlider.getHeight()), Justification::centred, true); } //============================================================================== void resized() override { loopIterationsSlider.setBounds (getLocalBounds().withSizeKeepingCentre (proportionOfWidth (0.9f), 50)); } private: //============================================================================== void initGui() { loopIterationsSlider.setSliderStyle (Slider::LinearBar); loopIterationsSlider.setRange (0, 30000, 250); loopIterationsSlider.setValue (15000); loopIterationsSlider.setColour (Slider::thumbColourId, Colours::white); loopIterationsSlider.setColour (Slider::textBoxTextColourId, Colours::grey); updateNumLoopIterationsPerCallback(); addAndMakeVisible (loopIterationsSlider); } //============================================================================== void allocateBuffers (std::size_t bufferSize) { a.resize (bufferSize); b.resize (bufferSize); c.resize (bufferSize); } //============================================================================== void initialiseBuffers (const AudioSourceChannelInfo& bufferToFill, std::size_t bufferSize) { if (bufferSize != a.size()) { jassertfalse; Logger::writeToLog ("WARNING: Unexpected buffer size received." "expected: " + String (a.size()) + ", actual: " + String (bufferSize)); if (bufferSize > a.size()) Logger::writeToLog ("WARNING: Need to allocate larger buffers on audio thread!"); allocateBuffers (bufferSize); } bufferToFill.clearActiveBufferRegion(); std::fill (a.begin(), a.end(), 0.09f); std::fill (b.begin(), b.end(), 0.1f ); std::fill (c.begin(), c.end(), 0.11f); } //============================================================================== void crunchSomeNumbers (float* outBuffer, std::size_t bufferSize, int numIterations) noexcept { jassert (a.size() == bufferSize && b.size() == bufferSize && c.size() == bufferSize); for (int i = 0; i < numIterations; ++i) { FloatVectorOperations::multiply (c.data(), a.data(), b.data(), (int) bufferSize); FloatVectorOperations::addWithMultiply (outBuffer, b.data(), c.data(), (int) bufferSize); } } //============================================================================== void timerCallback() override { printAndResetPerformanceMetrics(); } //============================================================================== void printHeader() const { Logger::writeToLog ("buffer size = " + String (a.size()) + " samples"); Logger::writeToLog ("sample rate = " + String (currentSampleRate) + " Hz"); Logger::writeToLog ("physical time limit / callback = " + String (getPhysicalTimeLimitMs() )+ " ms"); Logger::writeToLog (""); Logger::writeToLog (" | callback exec time / physLimit | callback time gap / physLimit | callback counters "); Logger::writeToLog ("numLoops | avg min max stddev | avg min max stddev | called late >limit "); Logger::writeToLog ("----- | ----- ----- ----- ----- | ----- ----- ----- ----- | --- --- --- "); } //============================================================================== void printAndResetPerformanceMetrics() { std::unique_lock lock (metricMutex); auto runtimeMetric = audioCallbackRuntimeMs; auto gapMetric = audioCallbackGapMs; auto late = numLateCallbacks; auto overLimit = numCallbacksOverPhysicalTimeLimit; resetPerformanceMetrics(); updateNumLoopIterationsPerCallback(); lock.unlock(); Logger::writeToLog (String (numLoopIterationsPerCallback).paddedRight (' ', 8) + " | " + getPercentFormattedMetricString (runtimeMetric) + " | " + getPercentFormattedMetricString (gapMetric) + " | " + String (runtimeMetric.getCount()).paddedRight (' ', 8) + String (late).paddedRight (' ', 8) + String (overLimit).paddedRight (' ', 8) + " | "); } //============================================================================== String getPercentFormattedMetricString (const StatisticsAccumulator metric) const { auto physTimeLimit = getPhysicalTimeLimitMs(); return (String (100.0 * metric.getAverage() / physTimeLimit, 1) + "%").paddedRight (' ', 8) + (String (100.0 * metric.getMinValue() / physTimeLimit, 1) + "%").paddedRight (' ', 8) + (String (100.0 * metric.getMaxValue() / physTimeLimit, 1) + "%").paddedRight (' ', 8) + String (metric.getStandardDeviation(), 3).paddedRight (' ', 8); } //============================================================================== void resetPerformanceMetrics() { audioCallbackRuntimeMs.reset(); audioCallbackGapMs.reset(); numLateCallbacks = 0; numCallbacksOverPhysicalTimeLimit = 0; } //============================================================================== void updateNumLoopIterationsPerCallback() { numLoopIterationsPerCallback = (int) loopIterationsSlider.getValue(); } //============================================================================== static double getPreciseTimeMs() noexcept { return 1000.0 * Time::getHighResolutionTicks() / (double) Time::getHighResolutionTicksPerSecond(); } //============================================================================== double getPhysicalTimeLimitMs() const noexcept { return 1000.0 * a.size() / currentSampleRate; } //============================================================================== std::vector a, b, c; // must always be of size == current bufferSize double currentSampleRate = 0.0; StatisticsAccumulator audioCallbackRuntimeMs; StatisticsAccumulator audioCallbackGapMs; double lastCallbackStartTimeMs = 0.0; int numLateCallbacks = 0; int numCallbacksOverPhysicalTimeLimit = 0; int numLoopIterationsPerCallback; Slider loopIterationsSlider; std::mutex metricMutex; //============================================================================== JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (MainContentComponent) }; // (This function is called by the app startup code to create our main component) Component* createMainContentComponent() { return new MainContentComponent(); } #endif // MAINCOMPONENT_H_INCLUDED